A refuse vehicle includes a chassis, a body assembly coupled to the chassis where the body assembly defines a refuse compartment, and a lift assembly pivotably coupled to the body assembly. The lift assembly includes a first lift arm, a second lift arm, a pin having a first end coupled to the first lift arm and an opposing second end coupled to the second lift arm, a pair of forks pivotably coupled to the first lift arm and the second lift arm, an electric lift actuator coupled to the pin, and an electric fork actuator coupled to the pair of forks. The electric lift actuator is configured to rotate the pin to lift the first lift arm and the second lift arm. The electric fork actuator is configured to pivot the pair of forks relative to the first lift arm and the second lift arm.

Systems and methods are provided for collecting and distributing material. In one embodiment, a collection system comprises at least one storage compartment comprising a plurality of regions. A bin is provided for transporting material from a first environment towards the storage compartment. The system comprises a diverter, wherein the diverter is dimensioned to distribute material among the plurality of regions within the storage compartment. The diverter has a first position during use in which at least a portion of the diverter is positioned below the bin when the bin is in a raised position for emptying material, and at least a portion of the diverter is positioned above the plurality of regions in the first position during use.

Systems and methods are provided for collecting and distributing material. In one embodiment, a collection system comprises at least one storage compartment comprising a plurality of regions. A bin is provided for transporting material from a first environment towards the storage compartment. The system comprises a diverter, wherein the diverter is dimensioned to distribute material among the plurality of regions within the storage compartment. The diverter has a first position during use in which at least a portion of the diverter is positioned below the bin when the bin is in a raised position for emptying material, and at least a portion of the diverter is positioned above the plurality of regions in the first position during use.

Systems and methods are provided for collecting and distributing material. In one embodiment, a collection system comprises at least one storage compartment comprising a plurality of regions. A bin is provided for transporting material from a first environment towards the storage compartment. The system comprises a diverter, wherein the diverter is dimensioned to distribute material among the plurality of regions within the storage compartment. The diverter has a first position during use in which at least a portion of the diverter is positioned below the bin when the bin is in a raised position for emptying material, and at least a portion of the diverter is positioned above the plurality of regions in the first position during use.

Systems and methods are provided for collecting and distributing material. In one embodiment, a collection system comprises at least one storage compartment comprising a plurality of regions. A bin is provided for transporting material from a first environment towards the storage compartment. The system comprises a diverter, wherein the diverter is dimensioned to distribute material among the plurality of regions within the storage compartment. The diverter has a first position during use in which at least a portion of the diverter is positioned below the bin when the bin is in a raised position for emptying material, and at least a portion of the diverter is positioned above the plurality of regions in the first position during use.

The mechanical arm system can include a garbage container holder and at least one mast. The holder can have guiding wheels engaged with adjacent tracks of the mast, the two adjacent tracks both having a lower portion extending upwardly along the mast, the lower portion of the first track being located forwardly of the lower portion of the second track, the lower portion of both tracks leading into corresponding upper portions which are curved rearwardly. The system can have a primary mast and a secondary mast slidably mounted to the primary mast, with the garbage container slidable mounted to the secondary mast. A driving link can simultaneously connect the primary mast to the secondary mast, and the secondary mast to the holder in a manner that when the driving link is moved, both sliding movements are performed in the same direction.

The mechanical arm system can include a garbage container holder and at least one mast. The holder can have guiding wheels engaged with adjacent tracks of the mast, the two adjacent tracks both having a lower portion extending upwardly along the mast, the lower portion of the first track being located forwardly of the lower portion of the second track, the lower portion of both tracks leading into corresponding upper portions which are curved rearwardly. The system can have a primary mast and a secondary mast slidably mounted to the primary mast, with the garbage container slidable mounted to the secondary mast. A driving link can simultaneously connect the primary mast to the secondary mast, and the secondary mast to the holder in a manner that when the driving link is moved, both sliding movements are performed in the same direction.

An attachment system includes a lateral member and an attachment interface. The attachment interface is configured to selectively engage with an attachment to facilitate releasably coupling the attachment to a vehicle. The attachment interface includes a first connecting plate coupled to the lateral member proximate a first end of the lateral member and a second connecting plate coupled to the lateral member proximate an opposing second end of the lateral member. Each of the first connecting plate and the second connecting plate includes (i) an upper interface positioned at an upper end thereof and (ii) a lower interface positioned at a lower end thereof. The upper interface of each of the first connecting plate and the second connecting plate defines a first aperture. The lower interface of each of the first connecting plate and the second connecting plate defines a second aperture.

A refuse vehicle includes a chassis, multiple tractive elements, a reach assembly, and a lift assembly. The multiple tractive elements are coupled with the chassis and configured to support the refuse vehicle. The reach assembly is coupled with the refuse vehicle. The lift assembly is coupled with the reach assembly. The lift assembly includes a track and a fully-electric grabber assembly. The track includes a straight portion and a curved portion. The fully-electric grabber assembly can ascend or descend the track and includes a carriage, a first grabber arm, a second grabber arm, and an electric motor. The carriage is configured to movably couple with the track. The first grabber arm and the second grabber arm are pivotally coupled with the carriage at opposite ends of the carriage. The electric motor is configured to drive the first grabber arm and the second grabber arm to rotate relative to the carriage.

A refuse vehicle includes a chassis, multiple tractive elements, a reach assembly, and a lift assembly. The multiple tractive elements are coupled with the chassis and configured to support the refuse vehicle. The reach assembly is coupled with the refuse vehicle. The lift assembly is coupled with the reach assembly. The lift assembly includes a track and a fully-electric grabber assembly. The track includes a straight portion and a curved portion. The fully-electric grabber assembly can ascend or descend the track and includes a carriage, a first grabber arm, a second grabber arm, and an electric motor. The carriage is configured to movably couple with the track. The first grabber arm and the second grabber arm are pivotally coupled with the carriage at opposite ends of the carriage. The electric motor is configured to drive the first grabber arm and the second grabber arm to rotate relative to the carriage.